1.000000 0.000000 0.000000 0.000000 1.000000 0.000000 0.000000 0.000000 1.000000 0.00000 0.00000 0.00000 Liu, Y. Kahn, R. Prestegard, J. http://mmcif.pdb.org/dictionaries/ascii/mmcif_pdbx.dic C3 H7 N O2 89.093 y ALANINE L-peptide linking C6 H15 N4 O2 1 175.209 y ARGININE L-peptide linking C4 H8 N2 O3 132.118 y ASPARAGINE L-peptide linking C4 H7 N O4 133.103 y ASPARTIC ACID L-peptide linking C3 H7 N O2 S 121.158 y CYSTEINE L-peptide linking C5 H10 N2 O3 146.144 y GLUTAMINE L-peptide linking C5 H9 N O4 147.129 y GLUTAMIC ACID L-peptide linking C2 H5 N O2 75.067 y GLYCINE peptide linking C10 H16 N5 O14 P3 523.180 n GUANOSINE-5'-TRIPHOSPHATE non-polymer C6 H10 N3 O2 1 156.162 y HISTIDINE L-peptide linking C6 H13 N O2 131.173 y ISOLEUCINE L-peptide linking C6 H13 N O2 131.173 y LEUCINE L-peptide linking C6 H15 N2 O2 1 147.195 y LYSINE L-peptide linking C5 H11 N O2 S 149.211 y METHIONINE L-peptide linking C10 H18 N O3 S2 264.385 S-[(1-oxyl-2,2,5,5-tetramethyl-2,5-dihydro-1H-pyrrol-3-yl)methyl] methanesulfonothioate MTSL non-polymer C14 H28 O2 228.371 MYRISTIC ACID non-polymer C9 H11 N O2 165.189 y PHENYLALANINE L-peptide linking C5 H9 N O2 115.130 y PROLINE L-peptide linking C3 H7 N O3 105.093 y SERINE L-peptide linking C4 H9 N O3 119.119 y THREONINE L-peptide linking C11 H12 N2 O2 204.225 y TRYPTOPHAN L-peptide linking C9 H11 N O3 181.189 y TYROSINE L-peptide linking C5 H11 N O2 117.146 y VALINE L-peptide linking US Nat.Struct.Mol.Biol. 1545-9993 17 876 881 10.1038/nsmb.1853 20601958 Dynamic structure of membrane-anchored Arf*GTP. 2010 20515.562 ADP-ribosylation factor 1 1 man polymer 264.385 S-[(1-oxyl-2,2,5,5-tetramethyl-2,5-dihydro-1H-pyrrol-3-yl)methyl] methanesulfonothioate 5 syn non-polymer 523.180 GUANOSINE-5'-TRIPHOSPHATE 1 syn non-polymer no yes (MYR)GLFASKLFSNLFGNKEMRILMVGLDGAGKTTVLYKLKLGEVITTIPTIGFNVECVQYCNISFTVWDVGGQDRIRS LWRHYYCNTEGVIFVVDSNDRSRIGEAREVMQRMLNEDELCNAAWLVFANKQDLPEAMSAAEITEKLGLHSIRNRPWFIQ ATCATSGEGLYEGLEWLSNCLKNST XGLFASKLFSNLFGNKEMRILMVGLDGAGKTTVLYKLKLGEVITTIPTIGFNVECVQYCNISFTVWDVGGQDRIRSLWRH YYCNTEGVIFVVDSNDRSRIGEAREVMQRMLNEDELCNAAWLVFANKQDLPEAMSAAEITEKLGLHSIRNRPWFIQATCA TSGEGLYEGLEWLSNCLKNST A polypeptide(L) n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n yeast sample ARF1, YDL192W, D1244 4932 Saccharomyces cerevisiae 562 Escherichia coli pET20(b) T55, K59, R83, R117, and S176 are mutated one at a time to cysteine for PRE measurement. Therefore these residues are replaced by "3M" (cys-mtsl) in the primary sequence repository Initial release Version format compliance Non-polymer description 1 0 2010-07-07 1 1 2011-07-13 1 2 2011-07-27 BMRB Y RCSB 2010-01-12 REL REL MTN S-[(1-oxyl-2,2,5,5-tetramethyl-2,5-dihydro-1H-pyrrol-3-yl)methyl] methanesulfonothioate GTP GUANOSINE-5'-TRIPHOSPHATE A MYRISTOYL GROUP (DERIVED FROM MYRISTIC ACID) IS COVALENTLY ATTACHED TO THE N-TERMINUS VIA AN AMIDE BOND. FURTHERMORE, WILD-TYPE PROTEIN WAS USED FOR ALL EXPERIMENTS (NOESY AND RDC) EXCEPT FOR THE PRE EXPERIMENTS WHICH REQUIRES A X-TO-CYS MUTATION. THE CYS MUTATIONS ARE NOT SIMULTANEOUSLY PRESENT BUT ONE AT A TIME. HOWEVER THE PRE DATA WERE COMBINED DURING CALCULATION AND THEREFORE IT APPEARS ALL THESE RESIDUES ARE REPLACED BY CYS IN THE FINAL PDB. structures with the lowest energy 280 20 3D HNCA 3D HNCACB 3D HN(CO)CA 3D C-excited C-CmHm TOCSY 3D NOESY-CH-HMQC 3D NOESY-NH-TROSY 3D NOESY-aromCH-CT-TROSY 3D HCCH-TOCSY 3D NOESY-NH-TROSY 3D NOESY-NH-TROSY 2D HSQC-TROSY 2D Jmod-NC' 2D Jmod-NH 2D 1H-15N fast HSQC 2D 1H-R1 HSQC 2D arom-CT-TROSY 1H IPAP 0.8 mM [U-13C; U-15N; U-2H] 0.8 mM [VI(d1)L-methyl-1H,13C; U-15N; U-2H] 0.8 mM [PHE-1H,13C; U-15N; U-2H] 0.8 mM [U-100% 13C; U-100% 15N; U-70% 2H] 0.3 mM [U-15N; 70%-2H] 0.1 7 ambient 298 K simulated annealing 1 lowest energy 0.8 mM [U-13C; U-15N; U-2H] protein, 95% H2O/5% D2O 95% H2O/5% D2O 0.8 mM [VI(d1)L-methyl-1H,13C; U-15N; U-2H] protein, 95% H2O/5% D2O 95% H2O/5% D2O 0.8 mM [PHE-1H,13C; U-15N; U-2H] protein, 95% H2O/5% D2O 95% H2O/5% D2O 0.8 mM [U-100% 13C; U-100% 15N; U-70% 2H] protein, 95% H2O/5% D2O 95% H2O/5% D2O 0.3 mM [U-15N; 70%-2H] protein, 95% H2O/5% D2O 95% H2O/5% D2O Varian collection VNMRJ Delaglio, Grzesiek, Vuister, Zhu, Pfeifer and Bax processing NMRPipe Goddard data analysis SPARKY Schwieters, Kuszewski, Tjandra and Clore structure solution X-PLOR_NIH Schwieters, Kuszewski, Tjandra and Clore refinement X-PLOR_NIH 600 Varian INOVA Varian INOVA 800 Varian INOVA Varian INOVA 900 Varian INOVA Varian INOVA MTN 55 2 MTN MTN 182 A MTN 59 2 MTN MTN 183 A MTN 83 2 MTN MTN 184 A MTN 117 2 MTN MTN 185 A MTN 176 2 MTN MTN 186 A GTP 182 3 GTP GTP 187 A MYR 1 n 1 MYR 1 A GLY 2 n 2 GLY 2 A LEU 3 n 3 LEU 3 A PHE 4 n 4 PHE 4 A ALA 5 n 5 ALA 5 A SER 6 n 6 SER 6 A LYS 7 n 7 LYS 7 A LEU 8 n 8 LEU 8 A PHE 9 n 9 PHE 9 A SER 10 n 10 SER 10 A ASN 11 n 11 ASN 11 A LEU 12 n 12 LEU 12 A PHE 13 n 13 PHE 13 A GLY 14 n 14 GLY 14 A ASN 15 n 15 ASN 15 A LYS 16 n 16 LYS 16 A GLU 17 n 17 GLU 17 A MET 18 n 18 MET 18 A ARG 19 n 19 ARG 19 A ILE 20 n 20 ILE 20 A LEU 21 n 21 LEU 21 A MET 22 n 22 MET 22 A VAL 23 n 23 VAL 23 A GLY 24 n 24 GLY 24 A LEU 25 n 25 LEU 25 A ASP 26 n 26 ASP 26 A GLY 27 n 27 GLY 27 A ALA 28 n 28 ALA 28 A GLY 29 n 29 GLY 29 A LYS 30 n 30 LYS 30 A THR 31 n 31 THR 31 A THR 32 n 32 THR 32 A VAL 33 n 33 VAL 33 A LEU 34 n 34 LEU 34 A TYR 35 n 35 TYR 35 A LYS 36 n 36 LYS 36 A LEU 37 n 37 LEU 37 A LYS 38 n 38 LYS 38 A LEU 39 n 39 LEU 39 A GLY 40 n 40 GLY 40 A GLU 41 n 41 GLU 41 A VAL 42 n 42 VAL 42 A ILE 43 n 43 ILE 43 A THR 44 n 44 THR 44 A THR 45 n 45 THR 45 A ILE 46 n 46 ILE 46 A PRO 47 n 47 PRO 47 A THR 48 n 48 THR 48 A ILE 49 n 49 ILE 49 A GLY 50 n 50 GLY 50 A PHE 51 n 51 PHE 51 A ASN 52 n 52 ASN 52 A VAL 53 n 53 VAL 53 A GLU 54 n 54 GLU 54 A CYS 55 n 55 CYS 55 A VAL 56 n 56 VAL 56 A GLN 57 n 57 GLN 57 A TYR 58 n 58 TYR 58 A CYS 59 n 59 CYS 59 A ASN 60 n 60 ASN 60 A ILE 61 n 61 ILE 61 A SER 62 n 62 SER 62 A PHE 63 n 63 PHE 63 A THR 64 n 64 THR 64 A VAL 65 n 65 VAL 65 A TRP 66 n 66 TRP 66 A ASP 67 n 67 ASP 67 A VAL 68 n 68 VAL 68 A GLY 69 n 69 GLY 69 A GLY 70 n 70 GLY 70 A GLN 71 n 71 GLN 71 A ASP 72 n 72 ASP 72 A ARG 73 n 73 ARG 73 A ILE 74 n 74 ILE 74 A ARG 75 n 75 ARG 75 A SER 76 n 76 SER 76 A LEU 77 n 77 LEU 77 A TRP 78 n 78 TRP 78 A ARG 79 n 79 ARG 79 A HIS 80 n 80 HIS 80 A TYR 81 n 81 TYR 81 A TYR 82 n 82 TYR 82 A CYS 83 n 83 CYS 83 A ASN 84 n 84 ASN 84 A THR 85 n 85 THR 85 A GLU 86 n 86 GLU 86 A GLY 87 n 87 GLY 87 A VAL 88 n 88 VAL 88 A ILE 89 n 89 ILE 89 A PHE 90 n 90 PHE 90 A VAL 91 n 91 VAL 91 A VAL 92 n 92 VAL 92 A ASP 93 n 93 ASP 93 A SER 94 n 94 SER 94 A ASN 95 n 95 ASN 95 A ASP 96 n 96 ASP 96 A ARG 97 n 97 ARG 97 A SER 98 n 98 SER 98 A ARG 99 n 99 ARG 99 A ILE 100 n 100 ILE 100 A GLY 101 n 101 GLY 101 A GLU 102 n 102 GLU 102 A ALA 103 n 103 ALA 103 A ARG 104 n 104 ARG 104 A GLU 105 n 105 GLU 105 A VAL 106 n 106 VAL 106 A MET 107 n 107 MET 107 A GLN 108 n 108 GLN 108 A ARG 109 n 109 ARG 109 A MET 110 n 110 MET 110 A LEU 111 n 111 LEU 111 A ASN 112 n 112 ASN 112 A GLU 113 n 113 GLU 113 A ASP 114 n 114 ASP 114 A GLU 115 n 115 GLU 115 A LEU 116 n 116 LEU 116 A CYS 117 n 117 CYS 117 A ASN 118 n 118 ASN 118 A ALA 119 n 119 ALA 119 A ALA 120 n 120 ALA 120 A TRP 121 n 121 TRP 121 A LEU 122 n 122 LEU 122 A VAL 123 n 123 VAL 123 A PHE 124 n 124 PHE 124 A ALA 125 n 125 ALA 125 A ASN 126 n 126 ASN 126 A LYS 127 n 127 LYS 127 A GLN 128 n 128 GLN 128 A ASP 129 n 129 ASP 129 A LEU 130 n 130 LEU 130 A PRO 131 n 131 PRO 131 A GLU 132 n 132 GLU 132 A ALA 133 n 133 ALA 133 A MET 134 n 134 MET 134 A SER 135 n 135 SER 135 A ALA 136 n 136 ALA 136 A ALA 137 n 137 ALA 137 A GLU 138 n 138 GLU 138 A ILE 139 n 139 ILE 139 A THR 140 n 140 THR 140 A GLU 141 n 141 GLU 141 A LYS 142 n 142 LYS 142 A LEU 143 n 143 LEU 143 A GLY 144 n 144 GLY 144 A LEU 145 n 145 LEU 145 A HIS 146 n 146 HIS 146 A SER 147 n 147 SER 147 A ILE 148 n 148 ILE 148 A ARG 149 n 149 ARG 149 A ASN 150 n 150 ASN 150 A ARG 151 n 151 ARG 151 A PRO 152 n 152 PRO 152 A TRP 153 n 153 TRP 153 A PHE 154 n 154 PHE 154 A ILE 155 n 155 ILE 155 A GLN 156 n 156 GLN 156 A ALA 157 n 157 ALA 157 A THR 158 n 158 THR 158 A CYS 159 n 159 CYS 159 A ALA 160 n 160 ALA 160 A THR 161 n 161 THR 161 A SER 162 n 162 SER 162 A GLY 163 n 163 GLY 163 A GLU 164 n 164 GLU 164 A GLY 165 n 165 GLY 165 A LEU 166 n 166 LEU 166 A TYR 167 n 167 TYR 167 A GLU 168 n 168 GLU 168 A GLY 169 n 169 GLY 169 A LEU 170 n 170 LEU 170 A GLU 171 n 171 GLU 171 A TRP 172 n 172 TRP 172 A LEU 173 n 173 LEU 173 A SER 174 n 174 SER 174 A ASN 175 n 175 ASN 175 A CYS 176 n 176 CYS 176 A LEU 177 n 177 LEU 177 A LYS 178 n 178 LYS 178 A ASN 179 n 179 ASN 179 A SER 180 n 180 SER 180 A THR 181 n 181 THR 181 A author_defined_assembly 1 monomeric 1.0000000000 0.0000000000 0.0000000000 0.0000000000 1.0000000000 0.0000000000 0.0000000000 0.0000000000 1.0000000000 1_555 x,y,z identity operation 0.0000000000 0.0000000000 0.0000000000 A N ASN 52 A N ASN 52 A O ASP 67 A O ASP 67 A O ILE 61 A O ILE 61 A N TYR 58 A N TYR 58 A N ASN 52 A N ASN 52 A O ASP 67 A O ASP 67 A O TRP 66 A O TRP 66 A N MET 22 A N MET 22 A N LEU 21 A N LEU 21 A O ILE 89 A O ILE 89 A N VAL 88 A N VAL 88 A O LEU 122 A O LEU 122 A N VAL 123 A N VAL 123 A O PHE 154 A O PHE 154 1 A O2 MTN 182 B O2 MTN 1 1 N 1 A O3 MTN 182 B O3 MTN 1 1 N 1 A C12 MTN 182 B C12 MTN 1 1 N 1 A O2 MTN 183 C O2 MTN 1 1 N 1 A O3 MTN 183 C O3 MTN 1 1 N 1 A C12 MTN 183 C C12 MTN 1 1 N 1 A O2 MTN 184 D O2 MTN 1 1 N 1 A O3 MTN 184 D O3 MTN 1 1 N 1 A C12 MTN 184 D C12 MTN 1 1 N 1 A O2 MTN 185 E O2 MTN 1 1 N 1 A O3 MTN 185 E O3 MTN 1 1 N 1 A C12 MTN 185 E C12 MTN 1 1 N 1 A O2 MTN 186 F O2 MTN 1 1 N 1 A O3 MTN 186 F O3 MTN 1 1 N 1 A C12 MTN 186 F C12 MTN 1 1 N 2 A O2 MTN 182 B O2 MTN 1 1 N 2 A O3 MTN 182 B O3 MTN 1 1 N 2 A C12 MTN 182 B C12 MTN 1 1 N 2 A O2 MTN 183 C O2 MTN 1 1 N 2 A O3 MTN 183 C O3 MTN 1 1 N 2 A C12 MTN 183 C C12 MTN 1 1 N 2 A O2 MTN 184 D O2 MTN 1 1 N 2 A O3 MTN 184 D O3 MTN 1 1 N 2 A C12 MTN 184 D C12 MTN 1 1 N 2 A O2 MTN 185 E O2 MTN 1 1 N 2 A O3 MTN 185 E O3 MTN 1 1 N 2 A C12 MTN 185 E C12 MTN 1 1 N 2 A O2 MTN 186 F O2 MTN 1 1 N 2 A O3 MTN 186 F O3 MTN 1 1 N 2 A C12 MTN 186 F C12 MTN 1 1 N 3 A O2 MTN 182 B O2 MTN 1 1 N 3 A O3 MTN 182 B O3 MTN 1 1 N 3 A C12 MTN 182 B C12 MTN 1 1 N 3 A O2 MTN 183 C O2 MTN 1 1 N 3 A O3 MTN 183 C O3 MTN 1 1 N 3 A C12 MTN 183 C C12 MTN 1 1 N 3 A O2 MTN 184 D O2 MTN 1 1 N 3 A O3 MTN 184 D O3 MTN 1 1 N 3 A C12 MTN 184 D C12 MTN 1 1 N 3 A O2 MTN 185 E O2 MTN 1 1 N 3 A O3 MTN 185 E O3 MTN 1 1 N 3 A C12 MTN 185 E C12 MTN 1 1 N 3 A O2 MTN 186 F O2 MTN 1 1 N 3 A O3 MTN 186 F O3 MTN 1 1 N 3 A C12 MTN 186 F C12 MTN 1 1 N 4 A O2 MTN 182 B O2 MTN 1 1 N 4 A O3 MTN 182 B O3 MTN 1 1 N 4 A C12 MTN 182 B C12 MTN 1 1 N 4 A O2 MTN 183 C O2 MTN 1 1 N 4 A O3 MTN 183 C O3 MTN 1 1 N 4 A C12 MTN 183 C C12 MTN 1 1 N 4 A O2 MTN 184 D O2 MTN 1 1 N 4 A O3 MTN 184 D O3 MTN 1 1 N 4 A C12 MTN 184 D C12 MTN 1 1 N 4 A O2 MTN 185 E O2 MTN 1 1 N 4 A O3 MTN 185 E O3 MTN 1 1 N 4 A C12 MTN 185 E C12 MTN 1 1 N 4 A O2 MTN 186 F O2 MTN 1 1 N 4 A O3 MTN 186 F O3 MTN 1 1 N 4 A C12 MTN 186 F C12 MTN 1 1 N 5 A O2 MTN 182 B O2 MTN 1 1 N 5 A O3 MTN 182 B O3 MTN 1 1 N 5 A C12 MTN 182 B C12 MTN 1 1 N 5 A O2 MTN 183 C O2 MTN 1 1 N 5 A O3 MTN 183 C O3 MTN 1 1 N 5 A C12 MTN 183 C C12 MTN 1 1 N 5 A O2 MTN 184 D O2 MTN 1 1 N 5 A O3 MTN 184 D O3 MTN 1 1 N 5 A C12 MTN 184 D C12 MTN 1 1 N 5 A O2 MTN 185 E O2 MTN 1 1 N 5 A O3 MTN 185 E O3 MTN 1 1 N 5 A C12 MTN 185 E C12 MTN 1 1 N 5 A O2 MTN 186 F O2 MTN 1 1 N 5 A O3 MTN 186 F O3 MTN 1 1 N 5 A C12 MTN 186 F C12 MTN 1 1 N 6 A O2 MTN 182 B O2 MTN 1 1 N 6 A O3 MTN 182 B O3 MTN 1 1 N 6 A C12 MTN 182 B C12 MTN 1 1 N 6 A O2 MTN 183 C O2 MTN 1 1 N 6 A O3 MTN 183 C O3 MTN 1 1 N 6 A C12 MTN 183 C C12 MTN 1 1 N 6 A O2 MTN 184 D O2 MTN 1 1 N 6 A O3 MTN 184 D O3 MTN 1 1 N 6 A C12 MTN 184 D C12 MTN 1 1 N 6 A O2 MTN 185 E O2 MTN 1 1 N 6 A O3 MTN 185 E O3 MTN 1 1 N 6 A C12 MTN 185 E C12 MTN 1 1 N 6 A O2 MTN 186 F O2 MTN 1 1 N 6 A O3 MTN 186 F O3 MTN 1 1 N 6 A C12 MTN 186 F C12 MTN 1 1 N 7 A O2 MTN 182 B O2 MTN 1 1 N 7 A O3 MTN 182 B O3 MTN 1 1 N 7 A C12 MTN 182 B C12 MTN 1 1 N 7 A O2 MTN 183 C O2 MTN 1 1 N 7 A O3 MTN 183 C O3 MTN 1 1 N 7 A C12 MTN 183 C C12 MTN 1 1 N 7 A O2 MTN 184 D O2 MTN 1 1 N 7 A O3 MTN 184 D O3 MTN 1 1 N 7 A C12 MTN 184 D C12 MTN 1 1 N 7 A O2 MTN 185 E O2 MTN 1 1 N 7 A O3 MTN 185 E O3 MTN 1 1 N 7 A C12 MTN 185 E C12 MTN 1 1 N 7 A O2 MTN 186 F O2 MTN 1 1 N 7 A O3 MTN 186 F O3 MTN 1 1 N 7 A C12 MTN 186 F C12 MTN 1 1 N 8 A O2 MTN 182 B O2 MTN 1 1 N 8 A O3 MTN 182 B O3 MTN 1 1 N 8 A C12 MTN 182 B C12 MTN 1 1 N 8 A O2 MTN 183 C O2 MTN 1 1 N 8 A O3 MTN 183 C O3 MTN 1 1 N 8 A C12 MTN 183 C C12 MTN 1 1 N 8 A O2 MTN 184 D O2 MTN 1 1 N 8 A O3 MTN 184 D O3 MTN 1 1 N 8 A C12 MTN 184 D C12 MTN 1 1 N 8 A O2 MTN 185 E O2 MTN 1 1 N 8 A O3 MTN 185 E O3 MTN 1 1 N 8 A C12 MTN 185 E C12 MTN 1 1 N 8 A O2 MTN 186 F O2 MTN 1 1 N 8 A O3 MTN 186 F O3 MTN 1 1 N 8 A C12 MTN 186 F C12 MTN 1 1 N 9 A O2 MTN 182 B O2 MTN 1 1 N 9 A O3 MTN 182 B O3 MTN 1 1 N 9 A C12 MTN 182 B C12 MTN 1 1 N 9 A O2 MTN 183 C O2 MTN 1 1 N 9 A O3 MTN 183 C O3 MTN 1 1 N 9 A C12 MTN 183 C C12 MTN 1 1 N 9 A O2 MTN 184 D O2 MTN 1 1 N 9 A O3 MTN 184 D O3 MTN 1 1 N 9 A C12 MTN 184 D C12 MTN 1 1 N 9 A O2 MTN 185 E O2 MTN 1 1 N 9 A O3 MTN 185 E O3 MTN 1 1 N 9 A C12 MTN 185 E C12 MTN 1 1 N 9 A O2 MTN 186 F O2 MTN 1 1 N 9 A O3 MTN 186 F O3 MTN 1 1 N 9 A C12 MTN 186 F C12 MTN 1 1 N 10 A O2 MTN 182 B O2 MTN 1 1 N 10 A O3 MTN 182 B O3 MTN 1 1 N 10 A C12 MTN 182 B C12 MTN 1 1 N 10 A O2 MTN 183 C O2 MTN 1 1 N 10 A O3 MTN 183 C O3 MTN 1 1 N 10 A C12 MTN 183 C C12 MTN 1 1 N 10 A O2 MTN 184 D O2 MTN 1 1 N 10 A O3 MTN 184 D O3 MTN 1 1 N 10 A C12 MTN 184 D C12 MTN 1 1 N 10 A O2 MTN 185 E O2 MTN 1 1 N 10 A O3 MTN 185 E O3 MTN 1 1 N 10 A C12 MTN 185 E C12 MTN 1 1 N 10 A O2 MTN 186 F O2 MTN 1 1 N 10 A O3 MTN 186 F O3 MTN 1 1 N 10 A C12 MTN 186 F C12 MTN 1 1 N 11 A O2 MTN 182 B O2 MTN 1 1 N 11 A O3 MTN 182 B O3 MTN 1 1 N 11 A C12 MTN 182 B C12 MTN 1 1 N 11 A O2 MTN 183 C O2 MTN 1 1 N 11 A O3 MTN 183 C O3 MTN 1 1 N 11 A C12 MTN 183 C C12 MTN 1 1 N 11 A O2 MTN 184 D O2 MTN 1 1 N 11 A O3 MTN 184 D O3 MTN 1 1 N 11 A C12 MTN 184 D C12 MTN 1 1 N 11 A O2 MTN 185 E O2 MTN 1 1 N 11 A O3 MTN 185 E O3 MTN 1 1 N 11 A C12 MTN 185 E C12 MTN 1 1 N 11 A O2 MTN 186 F O2 MTN 1 1 N 11 A O3 MTN 186 F O3 MTN 1 1 N 11 A C12 MTN 186 F C12 MTN 1 1 N 12 A O2 MTN 182 B O2 MTN 1 1 N 12 A O3 MTN 182 B O3 MTN 1 1 N 12 A C12 MTN 182 B C12 MTN 1 1 N 12 A O2 MTN 183 C O2 MTN 1 1 N 12 A O3 MTN 183 C O3 MTN 1 1 N 12 A C12 MTN 183 C C12 MTN 1 1 N 12 A O2 MTN 184 D O2 MTN 1 1 N 12 A O3 MTN 184 D O3 MTN 1 1 N 12 A C12 MTN 184 D C12 MTN 1 1 N 12 A O2 MTN 185 E O2 MTN 1 1 N 12 A O3 MTN 185 E O3 MTN 1 1 N 12 A C12 MTN 185 E C12 MTN 1 1 N 12 A O2 MTN 186 F O2 MTN 1 1 N 12 A O3 MTN 186 F O3 MTN 1 1 N 12 A C12 MTN 186 F C12 MTN 1 1 N 13 A O2 MTN 182 B O2 MTN 1 1 N 13 A O3 MTN 182 B O3 MTN 1 1 N 13 A C12 MTN 182 B C12 MTN 1 1 N 13 A O2 MTN 183 C O2 MTN 1 1 N 13 A O3 MTN 183 C O3 MTN 1 1 N 13 A C12 MTN 183 C C12 MTN 1 1 N 13 A O2 MTN 184 D O2 MTN 1 1 N 13 A O3 MTN 184 D O3 MTN 1 1 N 13 A C12 MTN 184 D C12 MTN 1 1 N 13 A O2 MTN 185 E O2 MTN 1 1 N 13 A O3 MTN 185 E O3 MTN 1 1 N 13 A C12 MTN 185 E C12 MTN 1 1 N 13 A O2 MTN 186 F O2 MTN 1 1 N 13 A O3 MTN 186 F O3 MTN 1 1 N 13 A C12 MTN 186 F C12 MTN 1 1 N 14 A O2 MTN 182 B O2 MTN 1 1 N 14 A O3 MTN 182 B O3 MTN 1 1 N 14 A C12 MTN 182 B C12 MTN 1 1 N 14 A O2 MTN 183 C O2 MTN 1 1 N 14 A O3 MTN 183 C O3 MTN 1 1 N 14 A C12 MTN 183 C C12 MTN 1 1 N 14 A O2 MTN 184 D O2 MTN 1 1 N 14 A O3 MTN 184 D O3 MTN 1 1 N 14 A C12 MTN 184 D C12 MTN 1 1 N 14 A O2 MTN 185 E O2 MTN 1 1 N 14 A O3 MTN 185 E O3 MTN 1 1 N 14 A C12 MTN 185 E C12 MTN 1 1 N 14 A O2 MTN 186 F O2 MTN 1 1 N 14 A O3 MTN 186 F O3 MTN 1 1 N 14 A C12 MTN 186 F C12 MTN 1 1 N 15 A O2 MTN 182 B O2 MTN 1 1 N 15 A O3 MTN 182 B O3 MTN 1 1 N 15 A C12 MTN 182 B C12 MTN 1 1 N 15 A O2 MTN 183 C O2 MTN 1 1 N 15 A O3 MTN 183 C O3 MTN 1 1 N 15 A C12 MTN 183 C C12 MTN 1 1 N 15 A O2 MTN 184 D O2 MTN 1 1 N 15 A O3 MTN 184 D O3 MTN 1 1 N 15 A C12 MTN 184 D C12 MTN 1 1 N 15 A O2 MTN 185 E O2 MTN 1 1 N 15 A O3 MTN 185 E O3 MTN 1 1 N 15 A C12 MTN 185 E C12 MTN 1 1 N 15 A O2 MTN 186 F O2 MTN 1 1 N 15 A O3 MTN 186 F O3 MTN 1 1 N 15 A C12 MTN 186 F C12 MTN 1 1 N 16 A O2 MTN 182 B O2 MTN 1 1 N 16 A O3 MTN 182 B O3 MTN 1 1 N 16 A C12 MTN 182 B C12 MTN 1 1 N 16 A O2 MTN 183 C O2 MTN 1 1 N 16 A O3 MTN 183 C O3 MTN 1 1 N 16 A C12 MTN 183 C C12 MTN 1 1 N 16 A O2 MTN 184 D O2 MTN 1 1 N 16 A O3 MTN 184 D O3 MTN 1 1 N 16 A C12 MTN 184 D C12 MTN 1 1 N 16 A O2 MTN 185 E O2 MTN 1 1 N 16 A O3 MTN 185 E O3 MTN 1 1 N 16 A C12 MTN 185 E C12 MTN 1 1 N 16 A O2 MTN 186 F O2 MTN 1 1 N 16 A O3 MTN 186 F O3 MTN 1 1 N 16 A C12 MTN 186 F C12 MTN 1 1 N 17 A O2 MTN 182 B O2 MTN 1 1 N 17 A O3 MTN 182 B O3 MTN 1 1 N 17 A C12 MTN 182 B C12 MTN 1 1 N 17 A O2 MTN 183 C O2 MTN 1 1 N 17 A O3 MTN 183 C O3 MTN 1 1 N 17 A C12 MTN 183 C C12 MTN 1 1 N 17 A O2 MTN 184 D O2 MTN 1 1 N 17 A O3 MTN 184 D O3 MTN 1 1 N 17 A C12 MTN 184 D C12 MTN 1 1 N 17 A O2 MTN 185 E O2 MTN 1 1 N 17 A O3 MTN 185 E O3 MTN 1 1 N 17 A C12 MTN 185 E C12 MTN 1 1 N 17 A O2 MTN 186 F O2 MTN 1 1 N 17 A O3 MTN 186 F O3 MTN 1 1 N 17 A C12 MTN 186 F C12 MTN 1 1 N 18 A O2 MTN 182 B O2 MTN 1 1 N 18 A O3 MTN 182 B O3 MTN 1 1 N 18 A C12 MTN 182 B C12 MTN 1 1 N 18 A O2 MTN 183 C O2 MTN 1 1 N 18 A O3 MTN 183 C O3 MTN 1 1 N 18 A C12 MTN 183 C C12 MTN 1 1 N 18 A O2 MTN 184 D O2 MTN 1 1 N 18 A O3 MTN 184 D O3 MTN 1 1 N 18 A C12 MTN 184 D C12 MTN 1 1 N 18 A O2 MTN 185 E O2 MTN 1 1 N 18 A O3 MTN 185 E O3 MTN 1 1 N 18 A C12 MTN 185 E C12 MTN 1 1 N 18 A O2 MTN 186 F O2 MTN 1 1 N 18 A O3 MTN 186 F O3 MTN 1 1 N 18 A C12 MTN 186 F C12 MTN 1 1 N 19 A O2 MTN 182 B O2 MTN 1 1 N 19 A O3 MTN 182 B O3 MTN 1 1 N 19 A C12 MTN 182 B C12 MTN 1 1 N 19 A O2 MTN 183 C O2 MTN 1 1 N 19 A O3 MTN 183 C O3 MTN 1 1 N 19 A C12 MTN 183 C C12 MTN 1 1 N 19 A O2 MTN 184 D O2 MTN 1 1 N 19 A O3 MTN 184 D O3 MTN 1 1 N 19 A C12 MTN 184 D C12 MTN 1 1 N 19 A O2 MTN 185 E O2 MTN 1 1 N 19 A O3 MTN 185 E O3 MTN 1 1 N 19 A C12 MTN 185 E C12 MTN 1 1 N 19 A O2 MTN 186 F O2 MTN 1 1 N 19 A O3 MTN 186 F O3 MTN 1 1 N 19 A C12 MTN 186 F C12 MTN 1 1 N 20 A O2 MTN 182 B O2 MTN 1 1 N 20 A O3 MTN 182 B O3 MTN 1 1 N 20 A C12 MTN 182 B C12 MTN 1 1 N 20 A O2 MTN 183 C O2 MTN 1 1 N 20 A O3 MTN 183 C O3 MTN 1 1 N 20 A C12 MTN 183 C C12 MTN 1 1 N 20 A O2 MTN 184 D O2 MTN 1 1 N 20 A O3 MTN 184 D O3 MTN 1 1 N 20 A C12 MTN 184 D C12 MTN 1 1 N 20 A O2 MTN 185 E O2 MTN 1 1 N 20 A O3 MTN 185 E O3 MTN 1 1 N 20 A C12 MTN 185 E C12 MTN 1 1 N 20 A O2 MTN 186 F O2 MTN 1 1 N 20 A O3 MTN 186 F O3 MTN 1 1 N 20 A C12 MTN 186 F C12 MTN 1 1 N 1 A A H O1B GLY GTP 29 187 1.57 2 A A H O1B GLY GTP 29 187 1.56 5 A A HG1 O2A THR GTP 31 187 1.51 5 A A H O1B LYS GTP 30 187 1.53 9 A A H O1B GLY GTP 29 187 1.53 9 A A HG1 O2B THR GTP 31 187 1.60 10 A A H O3G GLY GTP 70 187 1.51 10 A A H O1B GLY GTP 29 187 1.55 10 A A HG1 O2B THR GTP 31 187 1.58 11 A A H O1B GLY GTP 29 187 1.59 12 A A H O1B GLY GTP 29 187 1.54 13 A A H O1B GLY GTP 29 187 1.59 14 A A H O1B GLY GTP 29 187 1.53 15 A A H O1B GLY GTP 29 187 1.52 16 A A H O1B GLY GTP 29 187 1.52 17 A A HG1 O1A THR GTP 45 187 1.56 20 A A H O1B GLY GTP 29 187 1.59 1 A ILE 49 -103.00 70.69 1 A ASN 60 75.13 -0.18 1 A TYR 82 81.95 25.00 1 A CYS 83 38.27 101.81 1 A ASN 84 -179.59 -28.37 1 A ASP 96 -111.04 78.63 1 A PRO 152 -67.72 97.07 1 A ASN 179 67.34 -65.75 2 A LEU 25 -122.08 -164.51 2 A CYS 83 67.19 -70.77 2 A ASN 84 -168.43 62.40 2 A ASP 96 -113.40 79.90 2 A ASN 179 -90.07 30.29 3 A LYS 16 -119.32 -81.98 3 A LEU 25 -56.74 -164.25 3 A ASN 60 76.35 -1.70 3 A GLN 71 -143.15 -87.84 3 A CYS 83 62.56 -80.20 3 A ASN 84 -156.20 62.93 3 A ASP 96 -115.41 79.39 3 A PRO 152 -67.88 95.53 3 A ASN 179 35.07 61.39 3 A SER 180 61.46 104.65 4 A LYS 16 177.50 41.89 4 A HIS 80 -130.21 -40.36 4 A ASP 96 -108.91 78.53 4 A PRO 152 -67.21 95.87 4 A SER 180 -154.46 -47.66 5 A PRO 47 -57.43 108.46 5 A ASN 60 75.30 -0.58 5 A HIS 80 -150.23 17.69 5 A TYR 82 -127.21 -73.18 5 A ASN 84 -162.76 29.25 5 A ASP 96 -109.71 76.69 5 A PRO 152 -67.43 95.50 5 A LEU 177 -95.03 -61.84 5 A ASN 179 34.67 62.82 5 A SER 180 59.37 168.11 6 A ASN 15 61.43 113.65 6 A LYS 16 -51.87 104.73 6 A ASN 60 76.30 -2.74 6 A GLN 71 73.20 -126.01 6 A HIS 80 -158.40 26.97 6 A TYR 82 -155.51 -67.06 6 A ASN 84 -149.48 25.59 6 A ASP 96 -110.48 79.48 6 A PRO 152 -67.34 99.77 7 A ASN 15 55.85 -87.10 7 A LYS 16 -115.89 62.43 7 A ASN 60 75.59 -0.73 7 A GLN 71 -129.32 -82.70 7 A TYR 82 81.73 10.66 7 A CYS 83 55.25 105.21 7 A ASN 84 176.35 -29.41 7 A ASP 96 -108.01 76.26 7 A ALA 125 -59.20 103.76 7 A ASN 179 -91.10 34.10 7 A SER 180 -127.01 -52.21 8 A ASN 15 -59.00 -82.49 8 A LEU 25 -56.41 -166.34 8 A CYS 59 68.09 -86.98 8 A TYR 82 80.98 -4.86 8 A CYS 83 62.59 117.78 8 A ASN 84 166.98 -26.45 8 A ASP 96 -115.05 78.81 8 A LEU 177 -94.28 -60.70 8 A ASN 179 35.81 61.52 8 A SER 180 61.74 104.67 9 A CYS 59 70.50 -89.14 9 A GLN 71 175.90 147.31 9 A TYR 81 -145.72 16.58 9 A CYS 83 59.94 -174.55 9 A ASN 84 -67.35 69.95 9 A ASP 96 -112.12 78.97 9 A PRO 152 -67.48 96.57 9 A LEU 177 -94.38 -62.42 9 A ASN 179 37.81 57.64 10 A LYS 16 49.52 28.84 10 A ILE 49 -101.86 63.54 10 A ASN 60 78.45 -3.44 10 A TYR 81 -157.33 25.21 10 A CYS 83 59.81 -83.56 10 A ASN 84 -173.31 74.62 10 A ASP 96 -110.96 78.07 10 A ALA 125 -59.92 104.24 10 A LEU 177 -91.72 -61.31 10 A ASN 179 71.02 -1.33 10 A SER 180 60.43 178.82 11 A LEU 25 -57.99 -160.97 11 A ILE 49 -107.63 60.82 11 A GLN 71 169.46 -90.23 11 A ASN 84 -172.85 47.37 11 A ASP 96 -112.00 78.80 11 A ALA 125 -59.38 106.19 11 A PRO 152 -67.65 95.80 11 A LEU 177 -97.42 -61.06 11 A ASN 179 32.88 66.79 12 A LYS 16 -45.24 169.50 12 A LEU 25 -56.96 -165.43 12 A ILE 49 -97.87 41.71 12 A ASN 60 74.60 -0.35 12 A CYS 83 63.01 -82.22 12 A ASN 84 -150.24 57.52 12 A ASP 96 -114.11 78.69 12 A ASN 179 105.66 145.80 12 A SER 180 -103.53 -60.02 13 A ASN 15 60.50 175.50 13 A LEU 25 59.65 120.17 13 A ILE 49 -117.00 78.72 13 A CYS 59 67.74 -84.34 13 A TYR 81 -150.16 19.67 13 A CYS 83 64.93 -73.57 13 A ASN 84 -166.56 78.06 13 A ASP 96 -110.98 77.91 13 A PRO 152 -67.44 95.96 13 A SER 180 61.62 147.97 14 A ASN 15 -56.22 -166.47 14 A LEU 25 -57.80 -161.94 14 A ILE 49 -97.60 39.61 14 A ASN 60 78.35 -3.82 14 A CYS 83 60.42 -82.63 14 A ASN 84 -157.59 68.91 14 A ASP 96 -110.65 79.16 14 A ARG 149 -163.33 -43.57 15 A ILE 49 -97.51 41.46 15 A ASN 60 77.48 -2.71 15 A GLN 71 -44.04 158.76 15 A TYR 81 -141.84 12.65 15 A CYS 83 64.37 -78.05 15 A ASN 84 -165.44 74.15 15 A ASP 96 -110.26 77.14 15 A ALA 133 -36.83 158.30 15 A PRO 152 -66.90 95.54 15 A LEU 177 -92.53 -60.93 15 A ASN 179 34.70 61.91 15 A SER 180 61.82 151.95 16 A LYS 16 -109.42 74.81 16 A LEU 25 -56.30 -163.58 16 A ASN 60 74.98 -0.32 16 A GLN 71 173.16 -178.10 16 A HIS 80 -150.97 19.31 16 A TYR 82 177.38 -43.22 16 A ASN 84 -140.47 24.31 16 A ASP 96 -111.10 78.96 16 A LEU 177 -94.73 -60.33 16 A ASN 179 37.66 57.29 17 A LEU 25 -55.63 -166.37 17 A PRO 47 -57.36 109.09 17 A GLN 71 -130.09 -81.01 17 A TYR 81 -150.87 19.07 17 A ASN 84 -146.64 18.06 17 A ASP 96 -112.11 78.10 17 A PRO 152 -67.60 97.25 17 A ASN 179 -173.99 16.35 17 A SER 180 58.98 168.77 18 A LEU 25 -56.08 -164.52 18 A PRO 47 -57.50 108.86 18 A ASN 60 79.07 -5.09 18 A GLN 71 -142.11 -89.76 18 A CYS 83 58.17 -175.73 18 A ASN 84 -66.09 72.25 18 A ALA 125 -59.80 104.19 18 A PRO 152 -67.74 97.95 18 A LEU 177 -94.61 -62.45 18 A ASN 179 35.59 62.76 19 A ILE 49 -95.33 56.25 19 A ASN 60 76.61 -2.43 19 A TYR 81 -168.57 32.27 19 A ASN 84 166.68 -27.85 19 A ASP 96 -110.74 78.39 19 A PRO 152 -67.41 95.86 19 A LEU 177 -93.07 -60.91 20 A ASN 15 -57.43 100.57 20 A ILE 49 -104.30 69.56 20 A CYS 59 70.59 -84.27 20 A GLN 71 -46.98 155.58 20 A TYR 81 -174.44 29.93 20 A TYR 82 -92.67 33.38 20 A ASN 84 79.63 -4.17 20 A ASP 96 -108.70 78.79 20 A PRO 152 -67.41 98.89 20 A ASN 179 61.04 104.82 20 A SER 180 -162.49 113.47 ADP-ribosylation factor 1 lowest energy, model 4 The myristoylated yeast ARF1 in a GTP and bicelle bound conformation 1 N N 2 N N 2 N N 2 N N 2 N N 2 N N 3 N N A GLY 2 A GLY 2 HELX_P A ASN 11 A ASN 11 1 1 10 A LEU 12 A LEU 12 HELX_P A GLY 14 A GLY 14 5 2 3 A GLY 29 A GLY 29 HELX_P A GLY 40 A GLY 40 1 3 12 A GLN 71 A GLN 71 HELX_P A SER 76 A SER 76 1 4 6 A LEU 77 A LEU 77 HELX_P A TYR 81 A TYR 81 5 5 5 A ARG 99 A ARG 99 HELX_P A ASN 112 A ASN 112 1 6 14 A GLU 113 A GLU 113 HELX_P A CYS 117 A CYS 117 5 7 5 A SER 135 A SER 135 HELX_P A LEU 143 A LEU 143 1 8 9 A GLY 165 A GLY 165 HELX_P A LYS 178 A LYS 178 1 9 14 covale 1.330 A MYR 1 A C1 MYR 1 1_555 A GLY 2 A N GLY 2 1_555 covale 2.030 A A CYS 55 A SG CYS 55 1_555 A MTN 182 B S1 MTN 1_555 covale 2.030 B A CYS 55 A SG CYS 55 1_555 A MTN 182 B S1 MTN 1_555 covale 2.032 C A CYS 55 A SG CYS 55 1_555 A MTN 182 B S1 MTN 1_555 covale 2.029 A A CYS 59 A SG CYS 59 1_555 A MTN 183 C S1 MTN 1_555 covale 2.028 B A CYS 59 A SG CYS 59 1_555 A MTN 183 C S1 MTN 1_555 covale 2.030 C A CYS 59 A SG CYS 59 1_555 A MTN 183 C S1 MTN 1_555 covale 2.030 A A CYS 83 A SG CYS 83 1_555 A MTN 184 D S1 MTN 1_555 covale 2.030 B A CYS 83 A SG CYS 83 1_555 A MTN 184 D S1 MTN 1_555 covale 2.031 C A CYS 83 A SG CYS 83 1_555 A MTN 184 D S1 MTN 1_555 covale 2.030 A A CYS 117 A SG CYS 117 1_555 A MTN 185 E S1 MTN 1_555 covale 2.030 B A CYS 117 A SG CYS 117 1_555 A MTN 185 E S1 MTN 1_555 covale 2.029 C A CYS 117 A SG CYS 117 1_555 A MTN 185 E S1 MTN 1_555 covale 2.029 A A CYS 176 A SG CYS 176 1_555 A MTN 186 F S1 MTN 1_555 covale 2.030 B A CYS 176 A SG CYS 176 1_555 A MTN 186 F S1 MTN 1_555 covale 2.029 C A CYS 176 A SG CYS 176 1_555 A MTN 186 F S1 MTN 1_555 TRANSPORT PROTEIN ARF, myristoylated, myristoyl, GTP, bicelle, ER-Golgi transport, Golgi apparatus, GTP-binding, Lipoprotein, Myristate, Nucleotide-binding, Protein transport, Transport, TRANSPORT PROTEIN ARF1_YEAST UNP 1 2 P11076 GLFASKLFSNLFGNKEMRILMVGLDGAGKTTVLYKLKLGEVITTIPTIGFNVETVQYKNISFTVWDVGGQDRIRSLWRHY YRNTEGVIFVVDSNDRSRIGEAREVMQRMLNEDELRNAAWLVFANKQDLPEAMSAAEITEKLGLHSIRNRPWFIQATCAT SGEGLYEGLEWLSNSLKNST 2 181 2KSQ 2 181 P11076 A 1 2 181 1 SEE REMARK 999 MYR 1 2KSQ A P11076 UNP 1 1 THR SEE REMARK 999 CYS 55 2KSQ A P11076 UNP 55 55 1 LYS SEE REMARK 999 CYS 59 2KSQ A P11076 UNP 59 59 1 ARG SEE REMARK 999 CYS 83 2KSQ A P11076 UNP 83 83 1 ARG SEE REMARK 999 CYS 117 2KSQ A P11076 UNP 117 117 1 SER SEE REMARK 999 CYS 176 2KSQ A P11076 UNP 176 176 3 6 anti-parallel anti-parallel anti-parallel parallel parallel parallel parallel A PHE 51 A PHE 51 A ASN 52 A ASN 52 A ILE 61 A ILE 61 A VAL 68 A VAL 68 A CYS 55 A CYS 55 A TYR 58 A TYR 58 A PHE 51 A PHE 51 A ASN 52 A ASN 52 A ILE 61 A ILE 61 A VAL 68 A VAL 68 A GLU 17 A GLU 17 A GLY 24 A GLY 24 A GLY 87 A GLY 87 A ASP 93 A ASP 93 A TRP 121 A TRP 121 A ASN 126 A ASN 126 A TRP 153 A TRP 153 A ALA 157 A ALA 157 BINDING SITE FOR RESIDUE MTN A 182 Software 1 BINDING SITE FOR RESIDUE MTN A 183 Software 1 BINDING SITE FOR RESIDUE MTN A 184 Software 2 BINDING SITE FOR RESIDUE MTN A 185 Software 5 BINDING SITE FOR RESIDUE MTN A 186 Software 3 BINDING SITE FOR RESIDUE GTP A 187 Software 16 A CYS 55 A CYS 55 1 1_555 A CYS 59 A CYS 59 1 1_555 A HIS 80 A HIS 80 2 1_555 A CYS 83 A CYS 83 2 1_555 A ASN 112 A ASN 112 5 1_555 A GLU 113 A GLU 113 5 1_555 A ASP 114 A ASP 114 5 1_555 A CYS 117 A CYS 117 5 1_555 A ARG 151 A ARG 151 5 1_555 A ASN 175 A ASN 175 3 1_555 A CYS 176 A CYS 176 3 1_555 A LYS 178 A LYS 178 3 1_555 A ASP 26 A ASP 26 16 1_555 A GLY 27 A GLY 27 16 1_555 A ALA 28 A ALA 28 16 1_555 A GLY 29 A GLY 29 16 1_555 A LYS 30 A LYS 30 16 1_555 A THR 31 A THR 31 16 1_555 A THR 32 A THR 32 16 1_555 A THR 45 A THR 45 16 1_555 A ILE 46 A ILE 46 16 1_555 A THR 48 A THR 48 16 1_555 A GLY 69 A GLY 69 16 1_555 A GLY 70 A GLY 70 16 1_555 A ASN 126 A ASN 126 16 1_555 A ASP 129 A ASP 129 16 1_555 A ALA 160 A ALA 160 16 1_555 A THR 161 A THR 161 16 1_555